# .tlv file generated by https://github.com/akkartik/teliva # You may edit it if you are careful; however, you may see cryptic errors if you # violate Teliva's assumptions. # # .tlv files are representations of Teliva programs. Teliva programs consist of # sequences of definitions. Each definition is a table of key/value pairs. Keys # and values are both strings. # # Lines in .tlv files always follow exactly one of the following forms: # - comment lines at the top of the file starting with '#' at column 0 # - beginnings of definitions starting with '- ' at column 0, followed by a # key/value pair # - key/value pairs consisting of ' ' at column 0, containing either a # spaceless value on the same line, or a multi-line value # - multiline values indented by more than 2 spaces, starting with a '>' # # If these constraints are violated, Teliva may unceremoniously crash. Please # report bugs at http://akkartik.name/contact - __teliva_timestamp: original str_helpers: >-- some string helpers from http://lua-users.org/wiki/StringIndexing > >-- index characters using [] >getmetatable('').__index = function(str,i) > if type(i) == 'number' then > return str:sub(i,i) > else > return string[i] > end >end > >-- ranges using (), selected bytes using {} >getmetatable('').__call = function(str,i,j) > if type(i)~='table' then > return str:sub(i,j) > else > local t={} > for k,v in ipairs(i) do > t[k]=str:sub(v,v) > end > return table.concat(t) > end >end > >-- iterate over an ordered sequence >function q(x) > if type(x) == 'string' then > return x:gmatch('.') > else > return ipairs(x) > end >end > >-- insert within string >function string.insert(str1, str2, pos) > return str1:sub(1,pos)..str2..str1:sub(pos+1) >end > >function string.remove(s, pos) > return s:sub(1,pos-1)..s:sub(pos+1) >end > >function string.pos(s, sub) > return string.find(s, sub, 1, true) -- plain=true to disable regular expressions >end > >-- TODO: backport utf-8 support from Lua 5.3 - __teliva_timestamp: original debugy: >debugy = 5 - __teliva_timestamp: original dbg: >-- helper for debug by print; overlay debug information towards the right >-- reset debugy every time you refresh screen >function dbg(window, s) > local oldy = 0 > local oldx = 0 > oldy, oldx = window:getyx() > window:mvaddstr(debugy, 60, s) > debugy = debugy+1 > window:mvaddstr(oldy, oldx, '') >end - __teliva_timestamp: original check_eq: >function check_eq(x, expected, msg) > if x == expected then > Window:addch('.') > else > print('F - '..msg) > print(' expected '..tostring(expected)..' but got '..x) > teliva_num_test_failures = teliva_num_test_failures + 1 > -- overlay first test failure on editors > if teliva_first_failure == nil then > teliva_first_failure = msg > end > end >end - __teliva_timestamp: original map: >-- only for arrays >function map(l, f) > result = {} > for _, x in ipairs(l) do > table.insert(result, f(x)) > end > return result >end - __teliva_timestamp: original reduce: >-- only for arrays >function reduce(l, f, init) > result = init > for _, x in ipairs(l) do > result = f(result, x) > end > return result >end - __teliva_timestamp: original filter: >-- only for arrays >function filter(l, f) > result = {} > for _, x in ipairs(l) do > if f(x) then > table.insert(result, x) > end > end > return result >end - __teliva_timestamp: original find_index: >function find_index(arr, x) > for n, y in ipairs(arr) do > if x == y then > return n > end > end >end - __teliva_timestamp: original trim: >function trim(s) > return s:gsub('^%s*', ''):gsub('%s*$', '') >end - __teliva_timestamp: original split: >function split(s, d) > result = {} > for match in (s..d):gmatch("(.-)"..d) do > table.insert(result, match); > end > return result >end - __teliva_timestamp: original Window: >Window = curses.stdscr() - __teliva_timestamp: original render: >function render(window) > window:clear() > -- draw stuff to screen here > window:attron(curses.A_BOLD) > window:mvaddstr(1, 5, "example app") > window:attrset(curses.A_NORMAL) > for i=0,15 do > window:attrset(curses.color_pair(i)) > window:mvaddstr(3+i, 5, "========================") > end > window:refresh() >end - __teliva_timestamp: original menu: >-- To show app-specific hotkeys in the menu bar, add hotkey/command >-- arrays of strings to the menu array. >menu = {} - __teliva_timestamp: original update: >function update(window) > local key = window:getch() > -- process key here >end - __teliva_timestamp: original init_colors: >function init_colors() > for i=0,7 do > curses.init_pair(i, i, -1) > end > curses.init_pair(8, 7, 0) > curses.init_pair(9, 7, 1) > curses.init_pair(10, 7, 2) > curses.init_pair(11, 7, 3) > curses.init_pair(12, 7, 4) > curses.init_pair(13, 7, 5) > curses.init_pair(14, 7, 6) > curses.init_pair(15, -1, 15) >end - __teliva_timestamp: original main: >function main() > init_colors() > > while true do > render(Window) > update(Window) > end >end - __teliva_timestamp: original eval: >function eval(x, env) > function symeq(x, s) > return x and x.sym == s > end > if x.sym then > return lookup(env, x.sym) > elseif atom(x) then > return x > -- otherwise x is a pair > elseif symeq(x.car, 'quote') then > return x.cdr > elseif unary_functions[x.car.sym] then > return eval_unary(x, env) > elseif binary_functions[x.car.sym] then > return eval_binary(x, env) > -- special forms that don't always eval all their args > elseif symeq(x.car, 'if') then > return eval_if(x, env) > elseif symeq(x.car.car, 'fn') then > return eval_fn(x, env) > elseif symeq(x.car.car, 'label') then > return eval_label(x, env) > end >end - __teliva_timestamp: original eval_unary: >function eval_unary(x, env) > return unary_functions[x.car.sym](eval(x.cdr.car, env)) >end - __teliva_timestamp: original eval_binary: >function eval_binary(x, env) > return binary_functions[x.car.sym](eval(x.cdr.car, env)) >end - __teliva_timestamp: original unary_functions: >-- format: lisp name = lua function that implements it >unary_functions = { > atom=atom, > car=car, > cdr=cdr, >} - __teliva_timestamp: original binary_functions: >-- format: lisp name = lua function that implements it >binary_functions = { > cons=cons, > iso=iso, >} - __teliva_timestamp: original lookup: >function lookup(env, s) > if env[s] then return env[s] end > if env.next then return lookup(env.next, s) end >end - __teliva_timestamp: original eval_if: >function eval_if(x, env) > -- syntax: (if check b1 b2) > local check = x.cdr.car > local b1 = x.cdr.cdr.car > local b2 = x.cdr.cdr.cdr.car > if eval(check, env) then > return eval(b1, env) > else > return eval(b2, env) > end >end - __teliva_timestamp: original eval_fn: >function eval_fn(x, env) > -- syntax: ((fn params body*) args*) > local callee = x.car > local args = x.cdr > local params = callee.cdr.car > local body = callee.cdr.cdr > return eval_exprs(body, > bind_env(params, args, env)) >end - __teliva_timestamp: original bind_env: >function bind_env(params, args, env) > if params == nil then return env end > local result = {next=env} > while true do > result[params.car.sym] = eval(args.car, env) > params = params.cdr > args = args.cdr > if params == nil then break end > end > return result >end - __teliva_timestamp: original eval_exprs: >function eval_exprs(xs, env) > local result = nil > while xs do > result = eval(xs.car, env) > xs = xs.cdr > end > return result >end - __teliva_timestamp: original eval_label: >function eval_label(x, env) > -- syntax: ((label f (fn params body*)) args*) > local callee = x.car > local args = x.cdr > local f = callee.cdr.car > local fn = callee.cdr.cdr.car > return eval({car=fn, cdr=args}, > bind_env({f}, {callee}, env)) >end - __teliva_timestamp: original atom: >function atom(x) > return x == nil or x.num or x.char or x.str or x.sym >end - __teliva_timestamp: original car: >function car(x) return x.car end - __teliva_timestamp: original cdr: >function cdr(x) return x.cdr end - __teliva_timestamp: original cons: >function cons(x, y) return {car=x, cdr=y} end - __teliva_timestamp: original doc:main: >John McCarthy's Lisp -- without the metacircularity >If you know Lua, this version might be easier to understand. > >Words highlighted like [[this]] are suggestions for places to jump to using ctrl-g (see the menu below). >You can always jump back here using ctrl-b (for 'big picture'). > >Lisp is a programming language that manipulates objects of a few different types. >There are a few _atomic_ types, and one type that can combine them. >The atomic types are what you would expect: numbers, characters, strings, symbols (variables). You can add others. > >The way to combine them is the [[cons]] table which has just two keys: a [[car]] and a [[cdr]]. Both can hold objects, either atoms or other cons tables. > >We'll now build an interpreter that can run programs constructed out of cons tables. > >One thing we'll need for an interpreter is a symbol table (env) that maps symbols to values (objects). >We'll just use a Lua table for this purpose, but with one tweak: a _next_ pointer that allows us to combine tables together. >See [[lookup]] now to get a sense for how we'll use envs. > >Lisp programs are just cons tables and atoms nested to arbitrary depths, constructing trees. A Lisp interpreter walks the tree of code, >performing computations. Since cons tables can point to other cons tables, the tree-walker interpreter [[eval]] is recursive. >As the interpreter gets complex, we'll extract parts of it into their own helper functions: [[eval_unary]], [[eval_binary]], [[eval_if]], and so on. >The helper functions contain recursive calls to [[eval]], so that [[eval]] becomes indirectly recursive, and [[eval]] together with its helpers >is mutually recursive. I sometimes find it helpful to think of them all as just one big function. > >All these mutually recursive functions take the same arguments: a current expression 'x' and the symbol table 'env'. >But really, most of the interpreter is just walking the tree of expressions. Only two functions care about the internals of 'env': > - [[lookup]] which reads within env as we saw before > - [[bind_env]] which creates a new _scope_ of symbols for each new function call. >More complex Lisps add even more arguments to every. single. helper. Each arg will still only really matter to a couple of functions. >But we still have to pass them around all over the place. > >Hopefully this quick overview will help you get a sense for this codebase. > >Here's a reference list of eval helpers: [[eval_unary]], [[eval_binary]], [[eval_if]], [[eval_fn]], [[eval_exprs]], [[eval_label]] >More complex Lisps with more features will likely add helpers for lumpy bits of the language. >Here's a list of primitives implemented in Lua: [[atom]], [[car]], [[cdr]], [[cons]], [[iso]] (for 'isomorphic'; comparing trees all the way down to the leaves) >Here's a list of _constructors_ for creating objects of different types: [[num]], [[char]], [[str]], [[sym]] (and of course [[cons]]) >I should probably add more primitives for operating on numbers, characters and strings.. - __teliva_timestamp: original iso: >function iso(x, y) > if x == nil then return y == nil end > local done={} > -- watch out for the rare cyclical expression > if done[x] then return done[x] == y end > done[x] = y > if atom(x) then > if not atom(y) then return nil end > for k, v in pairs(x) do > if y[k] ~= v then return nil end > end > return true > end > for k, v in pairs(x) do > if not iso(y[k], v) then return nil end > end > for k, v in pairs(y) do > if not iso(x[k], v) then return nil end > end > return true >end